RU1782865C - Individual rescue device - Google Patents

Abstract

The purpose of the invention: the field of individual rescue equipment in the rescue of people in conditions of limited visibility. SUMMARY OF THE INVENTION: An individual life-saving device is equipped with multi-element corner reflectors, 1 yl.

Description

. The invention relates to the field of personal rescue equipment and can be used to rescue people in distress on water in conditions of limited visibility.

A life-saving tool is known including a jumpsuit and a corner reflector made of a gas-tight inflatable material with a metallized coating and yjrra Haj-; poured on a gas-tight inflatable strut attached to a jumpsuit. A corner reflector is used to increase the effective scattering surface of the human body in the radar range, since air or water traffic crashes often occur in adverse weather conditions or at night.

The disadvantage of the rescue equipment is that as a result of prolonged storage or when launching on the water, the inflatable corner reflector can be damaged. In addition, this rescue equipment is extremely difficult to put on a person who is unconscious or stressed, and this person being in the water will not be able to use the corner reflector.

To facilitate the search for people in distress on water, rescue equipment may include radio emitting systems such as radio beacons, but such devices are not used for mass transportation of people.

The use of various optoelectronic devices in the visible or infrared range for searching people in distress is ineffective, because the radiation recorded by these devices has wavelengths commensurate with the particle sizes of smoke, fog, smog, which significantly limits the range of such devices.

 The direct use of radar to detect people on the water surface is also ineffective because the scattering surface of the human body is relatively small.

A life vest (prototype) is known, which includes a shell of high-strength fabric with pockets, inside of which are placed rigid elements of buoyancy made of polymeric materials. This dress is a simple and reliable rescue tool that is resistant to external influences.

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Opyushi MI dsht;) y prototype h n p u and i i in gpm we honor mg (.dig and pemrnin Tin vcipPHCTpn pos south fast and effective jvKHinn i to detect people who show bpd TRIR in conditions of limited

GUY VISIBILITY

The purpose of the invention is to increase the effective search for people wearing individual rescue equipment in conditions of limited visibility by increasing the effective scattering surface of the rescue equipment in the radar range while eliminating damage to multi-element corner reflectors.

The goal is achieved in that it is proposed to use an individual rescue device consisting of a shell and rigid floating elements in the pockets of the shell; inside the rigid floating elements there are multielement angular reflectors consisting of tightly aligned sections, each of which is formed by three rectangular isosceles triangles aligned along the legs, and the sections are aligned along the hypotenuses, all hypotenuses are in the same plane and all the vertices of the section lie on one side of this plane

The present invention has the totality of existing differences from the prototype, namely, multi-element angular reflectors are placed inside the rigid floating elements, and the shape of the reflectors is selected from the condition of maximum effective scattering surface with a limited size of the floating element. Thus, the claimed device meets the criteria of the invention of novelty.

The shape of a separate section formed by three isosceles right triangles is known. However, in the patent documentation and in the scientific and technical literature there is no information on the placement of multi-element corner reflectors, consisting of such sections, inside the rigid floating elements of individual life-saving appliances.

The analysis conducted by the authors showed that the multi-element corner reflector shown in Fig. 1 will have the greatest effective scattering surface under conditions of limited size of the floating element.

The effective scattering surface of any section formed by three triangles can be calculated by the formula

about

where a is the length of the leg, A is the wavelength of the probe radiation. If we assume that the section height is equal to the thickness of the rigid floating element, then Vs. Let us estimate the detection range of a person with a rescue equipment on using the expression:

I N Oo, -h -.,,

ex --- j- Sisl Gnp exp (-2 a R)

Rpo R

etc

(47r) JFT

(2)

where Razl., Rpr are the powers of the emitter and the received signal, N st0 is the effective scattering surface, Sizl, Gnp are the coefficients of the directional action of the antennas of the emitter and receiver, and is the path absorption coefficient (in air and precipitation), R is the distance between emitter and rescue tool. If

take G (-) 2, where y0 is the angular width

If the radiation patterns of the transmitter and receiver antennas, then from (2), taking into account (1), we can obtain

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(

out

) N

IT

(3)

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where N is the number of sections of a multi-element corner reflector. There is evidence that attenuation of millimeter radiation in fogs is obviously less than attenuation of radiation in clouds. Attenuation of radiation with A 2 mm when passing through a layer of thick cumulus clouds in the vertical direction does not exceed 10 dB. If we take Riesl / Rpr of 140 dB, the absorption along the doubled path is -30 dB, y0 0.04 rad (mm) N 10, and 6 cm, then 800 m; The visual detection range under these conditions does not exceed 50-100 m. With a small path absorption (5 dB) (at night in the absence of precipitation), the limiting detection range R increases to 5600 m.

Example A rigid floating element is made by gluing two parts between which a thin polymer film with a conductive layer (for example, a sprayed AI film) is laid. The profile of a multi-element corner reflector is obtained by hot pressing of polymeric materials with a large buoyancy margin, for example, foam. After gluing, rigid floating the elements are wrapped with a polymer film for

IMPROVING PRCHIOMP L MGOP POMRSCHGP H in

rescue pockets KILRL Voshnozhnp as well as other technologies for placing corner reflectors inside floating elements For example, a multi-element corner reflector stamped from a metal foil is coated with foaming polymeric material on both sides and then floating elements of the required dimensions are cut. The number of sections inside a rigid floating element is determined by its thickness and may be 10-20 units

So, the use of individual rescue equipment with multi-element angular reflectors located inside rigid floating elements will significantly facilitate the search for people in conditions of limited visibility by increasing the detection range from 50-100 m for visual detection to 1800 m for radar detection

t 1 runner J and fi r R 1 and and Individual shasatlmnoe unit containing a shell with pockets in which are rigid floating elements characterized in that in order to increase operational capabilities, it is equipped with multi-element corner reflectors with each mentioned The enclosed reflector is made of conjugate conductive sections, each of which is formed by three plates, while each plate is made in the shape of a rectangular isosceles triangle, the plates of the reflector sections are connected between wallpaper on the legs of the mentioned triangles, and adjacent sections of the reflector are interconnected by the hypotenuses of the triangles, and all hypotenuses are located on the same plane, and all the vertices of the sections are located on one side of this plane, with each reflector located inside its corresponding floating element